Oral anticoagulation for atrial fibrillation anticoagulation fo… · The prevalence of atrial...
Transcript of Oral anticoagulation for atrial fibrillation anticoagulation fo… · The prevalence of atrial...
Appropriate Care Guide
Published:
20 November 2017
Oral anticoagulation for atrial fibrillation
1 Offer anticoagulation to patients with atrial fibrillation (AF) and a modified CHA2DS2VASc score of 2 or more.
2 Choose warfarin or a non-vitamin K antagonist oral anticoagulant (NOAC), based on patient, drug and disease factors. • Warfarin and NOACs are comparable in preventing AF-related stroke and systemic
embolism. NOACs are also known as direct oral anticoagulants (DOACs).• Warfarin is the only drug with proven safety and efficacy in patients with AF and
mechanical heart valves or moderate to severe mitral stenosis.• Use NOACs only in patients with creatinine clearance 30 mL/min or more (using
Cockcroft-Gault formula).
3 Review oral anticoagulation at least annually and when patients' clinical circumstances change.
4 Use antiplatelet agents selectively based on risk stratification when anticoagulation is contraindicated. Antiplatelet agents are inferior to anticoagulants for preventing AF-related strokes.
Key messages
The prevalence of atrial fibrillation (AF) increases as the population ages. AF increases the risk of stroke by 3 to 5 times1,2 and in Singapore, about 17% of strokes occurred in patients with AF.3
Although oral anticoagulation (OAC) has been shown to be beneficial in patients with AF, many remain inadequately anticoagulated. In Asia, 1 in 2 patients requiring OAC is not on therapy and for those who are on warfarin, 59% have international normalised ratios (INRs) below the therapeutic range.4 Ensuring adequate anticoagulation is important as it can reduce the risk of AF-related strokes in Singapore. A holistic approach should also be taken to decide the appropriate OAC therapy; advanced age alone is not a contraindication to anticoagulation.5
Preventable strokes in atrial fibrillation
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Estimating stroke risk
CHA2DS2VASc score
To decide if OAC is clinically indicated, assessment of patients' stroke risk is required. The CHA2DS2VASc score was developed to estimate stroke risk in patients with AF. A higher score signifies a higher stroke risk.
Modified CHA2DS2VASc score
In the absence of other risk factors, female gender alone may not increase stroke risk.6 There seems to be no benefit from anticoagulating patients with CHA2DS2VASc score = 0 for males and CHA2DS2VASc score = 1 for females.7 Recent guidelines have also disregarded gender when deciding if a patient requires anticoagulation.8 The modified CHA2DS2VASc (mCHA2DS2VASc) is used in this Appropriate Care Guide, where gender does not contribute to the score.
Assessing and addressing bleeding risk
It is important to assess and address bleeding risk throughout the full duration of anticoagulation. Annual major bleeding risks in patients on anticoagulation range from 3.1 to 3.4% for warfarin and 2.1 to 3.6% for NOACs.11-13 Most of these were gastrointestinal bleeds and less frequently, intracranial haemorrhages.
Generally, bleeding risk scores, such as HAS-BLED, poorly predict major bleeding events.14 However, they are useful in identifying risk factors that may be modifiable such as:• concomitant drugs which may predispose to bleeding, such as
NSAIDs and antiplatelet agents• excessive alcohol consumption (≥ 8 units per week)• poorly-controlled blood pressure • less than 6 in 10 INRs within the therapeutic range for warfarin.
Table 1. HAS-BLED score
Risk factor Points
H Hypertension (systolic blood pressure > 160 mmHg) 1
A
Abnormal renal function: Dialysis, renal transplant, serum creatinine > 200 micromol/L
1
Abnormal liver function: Cirrhosis or Bilirubin > 2x Normal or AST or ALT or ALP > 3x Normal
1
S Stroke (history of) 1
B Bleeding (history of or predisposition to bleeding) 1
LLabile INRs (unstable or high INRs or < 6 in 10 INRs were within the therapeutic range)
1
E Elderly (age > 65 years) 1
DDrugs (e.g. antiplatelet agents or NSAIDs) 1
Alcohol (≥ 8 units per week) 1
Maximum score 9
High stroke risk
A CHA2DS2VASc score of 2 is
associated with a stroke risk of
2 to 3 strokes per 100 patients per
year, while a score of 6
is associated with a stroke risk of
6 to 10 strokes per 100 patients
per year.9,10
Bleeding risk scores should not be
used to withhold anticoagulation.
Instead, make every effort to
reduce bleeding risk.
A HAS-BLED score of ≥ 3 indicates
high bleeding risk, with ≥ 4 bleeds
per 100 patients per year.15 Monitor
these patients more frequently,
and take steps to reduce their
bleeding risks.
Bleeding risk scores
High bleeding risk
2
Selecting an oral anticoagulant
The choice of oral anticoagulant is based on patient factors such as bleeding risks, age, comorbidities, renal and liver function, concomitant drugs, drug tolerability, cost and individual preferences.
Review the indication and choice of oral anticoagulant at least annually and when patients' clinical circumstances change.
Table 2. Management of high INR without significant bleeding
Caution:1. Oral vitamin K is prepared from injection vitamin K.2. The effect of vitamin K is usually seen after 24 h.3. Too much vitamin K use can cause resistance towards warfarin upon restarting later.
Warfarin
Warfarin is the only drug with proven safety and efficacy in patients with mechanical heart valves or moderate to severe mitral stenosis.16,17 The presence of either condition is associated with exceptionally high thromboembolic risks. Warfarin is the treatment of choice for these patients.
When patients on warfarin have INR levels which are not in therapeutic range, more frequent INR monitoring and dose adjustments are needed.18,19
Mild bleeding episodes can be managed in outpatient settings while severe bleeding episodes warrant hospitalisations. If reversal of anticoagulation is required, patients may be referred to specialists or the emergency department.
Shared decision-making
Warfarin’s drawbacks
Counsel patients on the risks
and benefits of anticoagulation.
Discuss therapeutic options
to help them make informed
decisions about their treatment.
This will facilitate management of
potential complications and also
encourage adherence.
INR monitoring
For patients initiated on warfarin,
perform INR test:
• at baseline,
• weekly, until INR is within
therapeutic range and
• at 8 to 12 weekly intervals
once INR is stable.
• Frequent drug-drug, drug-food
or drug-herb interactions.
• A narrow therapeutic range.
• The need for at least 6 out of
10 INR readings to be within
therapeutic range.
• A delayed onset and offset
of anticoagulation which may
necessitate bridging therapy.
INR Management
Greater than therapeutic
range but < 4.5
Decrease or withhold dosage.
Monitor INR more frequently if clinically indicated, and restart warfarin at a lower dose when INR is within therapeutic range.
4.5–9.0
Withhold warfarin and consider administering oral vitamin K at 1-3 mg.
Recheck INR within 24–48 h. If within range, resume warfarin at a lower dose. If INR is still high, administer a second dose of oral vitamin K at 1–3 mg.
> 9.0
Withhold warfarin and consider administering oral vitamin K at 3-5 mg.
Recheck INR within 24–48 h. If within range, resume warfarin at a lower dose. If INR is still high, administer a second dose of vitamin K at 1–3 mg.
3
Non-vitamin K antagonist oral anticoagulants (NOACs)
Diminished role of antiplatelet agents
These drugs are also known as direct oral anticoagulants (DOACs) or target-specific oral anticoagulants (TSOACs). With the lack of head-to-head trials, there is insufficient evidence to recommend one NOAC over the others in terms of safety and efficacy.
NOACs are as effective as warfarin in reducing AF-related strokes and systemic embolisms. They are also associated with fewer intracranial haemorrhages (ICH) compared to warfarin (about 2 to 5 ICH events avoided for every 1,000 patients treated per year).20 However, they may be associated with increased gastrointestinal bleeding when compared to warfarin.21 Limited experience with reversal agents may make NOACs less preferable in patients with high bleeding risks.
Antiplatelet agents are inferior to anticoagulants in AF-related stroke prevention and are no longer recommended in recent guidelines.8 Compared to antiplatelet agents, anticoagulants reduced the absolute risk of all strokes by 0.7 to 7% while increasing the absolute risk of major bleeding by 0.2%.28,29
When anticoagulation is contraindicated, the role of antiplatelet agents is unclear. Some studies showed that aspirin caused more harm compared with no treatment30,31 while others showed fewer32,33 and less severe34 strokes. Therefore, consider aspirin or clopidogrel only when anticoagulation is contraindicated in patients with mCHA2DS2VASc ≥ 2, especially for those with a history of ischaemic stroke or transient ischaemic attack.
Coagulation tests are not useful in patients on NOACs, except in cases of severe bleeding or urgent surgery. INR is not specific for NOACs and a normal prothrombin time or activated prothrombin time does not rule out the presence of residual NOACs’ effects.26
Table 3. Using NOACs in valvular heart disease (VHD)
Renal function monitoring
Use Cockcroft-Gault formula
For patients initiated on NOACs,
perform renal function test:
• at baseline and
• at least annually27 or
• more frequently (e.g.
6-monthly) in patients with
moderate renal impairment
(CrCl 30–60 mL/min).
Renal impairment increases the
risk of bleeding with NOACs.
If CrCl is less than 30 mL/min,
discuss the clinical effects of
anticoagulation and choice of
anticoagulant with a specialist.
Estimate renal function using the
Cockcroft-Gault formula as this
method was used in the pivotal
trials.11-13
(140 – Age) × Body Weight (kg)
0.814 × Serum Creatinine (micromol/L)
• Multiply the value by 0.85 for
females.
• Use ideal body weight for
patients who are overweight.
VHD subgroup Evidence NOACs Use
Mechanical heart valves or moderate to severe mitral stenosis
None
Bioprosthetic heart valves, tricuspid regurgitation or mild mitral stenosis
Limited22-24 Individualise
Aortic stenosis, aortic or mitral regurgitation
Yes25
4
Table 4. Characteristics of oral anticoagulants (adapted from local product information leaflets)
*List of drugs is not comprehensive. Please consult a pharmacist for information on drugs with interacting metabolic pathways, especially when patients are taking new concomitant drugs or supplements.†Based on treatment costs (including INR monitoring for warfarin) to patients at public healthcare institutions. At the time of publication, rivaroxaban is the only NOAC listed on Medication Assistance Fund (MAF) and costs may vary over time. ‡As estimated by Cockcroft-Gault formula.
Drugs Warfarin Dabigatran Rivaroxaban Apixaban
Mechanism of action
Vitamin K antagonistDirect thrombin
inhibitorDirect factor Xa inhibitor
Direct factor Xa inhibitor
Bioavailability > 95%6.5%
Do not chew, break or open capsule
80–100% when administered with
food~ 50%
T (max) 72–96 h 0.5–2 h 2–4 h 3–4 h
Half-life 40 h 12–14 h 5–13 h 12 h
Routine coagulation monitoring
Yes No No No
Reversal agent(s)
Vitamin K, fresh frozen plasma and
prothrombin complex concentrates
Idarucizumab Not available
Elimination~100% metabolised,
negligible in urine85% renal
67% renal, 33% faecal
27% renal, 73% faecal
Drug interactions*
++++Co-trimoxazole,
fluconazole, metronidazole, amiodarone, rifampicin,
carbamazepine, phenobarbitone, St John’s Wort
++Antifungals (e.g. azoles), macrolides (e.g. erythromycin), antituberculosis
drugs (e.g. rifampicin), antiretrovirals and calcineurin inhibitors
Cost† $–$$$ $$$$ $$ $$$
Dosing according to renal function,
CrCl (mL/min)‡
> 50 INR-adjusted
150 mg BD 110 mg BD if patients
have high risks of bleeding
20 mg daily
5 mg BD2.5 mg BD if patients
have ≥ 2 of the following:
• age ≥ 80 years• body weight ≤ 60 kg • serum creatinine
≥ 133 micromol/L.30–50 15 mg daily
< 30 Patients were not included in pivotal trials
Dosing in liver impairment
INR-adjusted Not recommended in severe liver disease
5
1. Wolf PA, et al. Stroke. 1991.
2. Yap KB, et al. J Electrocardiol. 2008.
3. National Registry of Diseases Office.
2014.
4. Oh S, et al. Int J Cardiol. 2016.
5. Mant J, et al. Lancet. 2007.
6. Wagstaff AJ, et al. QJM. 2014.
7. Okumura K, et al. Circ J. 2014.
8. Kirchhof P, et al. Eur Heart J. 2016.
9. Lip GY, et al. Chest. 2010.
10. Chao TF, et al. J Am Coll Cardiol.
2014.
11. Granger CB, et al. N Engl J Med.
2011.
12. Patel MR, et al. N Engl J Med. 2011.
13. Connolly SJ, et al. N Engl J Med.
2009.
14. Loewen P, et al. Ann Hematol. 2011.
15. Pisters R, et al. Chest. 2010.
16. Cannegieter SC, et al. Circulation.
1994.
17. Chandrashekhar Y, et al. Lancet.
2009.
18. Singapore Ministry of Health.
Guidelines. 2006.
19. Wigle P, et al. Am Fam Physician.
2013.
20. Singapore Agency for Care
Effectiveness. Drug Guidance. 2017.
21. Ruff CT, et al. Lancet. 2014.
22. Breithardt G, et al. Eur Heart J. 2014.
23. Avezum A, et al. Circulation. 2015.
24. Ezekowitz MD, et al. Circulation.
2016.
25. Renda G, et al. J Am Coll Cardiol.
2017.
26. Wong WH, et al. Ann Acad Med
Singapore. 2016.
27. January CT, et al. Circulation. 2014.
28. Hart RG, et al. Ann Intern Med. 2007.
29. Connolly SJ, et al. N Engl J Med.
2011.
30. Sjalander S, et al. Europace. 2014.
31. Olesen JB, et al. Thromb Haemost.
2011.
32. Chen PC, et al. PLoS One. 2015.
33. Ho CW, et al. Stroke. 2015.
34. Xian Y, et al. JAMA. 2017.
References
Lead discussant Dr Lim Toon Wei (NUH)
Chairperson A/Prof Ching Chi Keong (NHCS)
Group members Dr Bernard Chan (NUH)
Mr Kong Ming Chai (SGH)
Dr How Choon How (CGH)
Dr Hwang Siew Wai (SHP)
A/Prof Lee Lai Heng (SGH)
Dr Lee Sze Haur (TTSH/NNI)
Dr Doreen Tan (KTPH)
EXPERT GROUP
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Algorithm for oral anticoagulation in atrial fibrillation-related stroke prevention
Published:
20 November 2017
Oral anticoagulation for atrial fibrillation
AF without mechanical heart valves or
moderate to severe mitral stenosis
Discuss and address bleeding risk factors
Offer warfarin
AF with mechanical heart valves or
moderate to severe mitral stenosis
• Obtain detailed patient history.• Perform physical examination.
Estimate stroke risk based on mCHA2DS2VASc
+1 Congestive heart failure
+1 Hypertension
+1 Diabetes mellitus
+2 Prior stroke or transient ischaemic attack
+1 Vascular disease (prior myocardial infarction, peripheral artery disease or aortic plaque)
+1 Age 65–74
+2 Age ≥ 75
Gender (Sex Category) − Not counted
Offer warfarin or a NOAC if not contraindicated
• Discuss and address bleeding risk factors. • Discuss treatment options.
• No anticoagulants. • No antiplatelet
agents.
• Consider anticoagulation as not all risk factors amount to the same risk.*
• No antiplatelet agents.
Factors favouring warfarin
• Patients who can maintain at least 6 out of 10 INR readings within therapeutic range while on warfarin.
• Patients unable to tolerate side effects of NOACs e.g. epigastric discomfort.
• Patients with moderate to severe liver or renal impairment.
• Patients with clinically significant drug-drug interactions with NOACs as the gain or loss of effect cannot be routinely measured.
Factors favouring NOACs
• Patients with less than 6 out of 10 INR readings within therapeutic range (labile INR) while on warfarin.
• Patients with difficult access to INR monitoring, either due to venous access or laboratory access.
• Patients reluctant to have frequent INR monitoring.
1 20
Determine treatment based on total score
*Joundi RA, et al. Stroke. 2016
(Refer to the ACG on "Oral anticoagulation for atrial fibrillation" for more information.)
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